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akaros / upstream / eaa24bf8e75eda294a0d0ce80a89fe0452fb2867
commiteaa24bf8e75eda294a0d0ce80a89fe0452fb2867[log] [tgz]
authorBarret Rhoden <brho@cs.berkeley.edu>Fri Jan 13 18:26:15 2017 -0500
committerBarret Rhoden <brho@cs.berkeley.edu>Wed Jan 18 10:00:03 2017 -0500
tree2dd8e16d5c8d19655205f8a00432fc07a0d4b09e
parentd9d8428694d1df67d49867d5b21774267839442d [diff]
vmm: Allow the VM to boot without full networking

Depending on the level of networking available, the guest may be able to do
some things.  For instance, if there is an IP address, but no DNS, then the
guest can get by with IP only.  The guest should be able to get away with
statically setting its nameservers, too, since the host's DNS server only
matters for DHCP responses.

If the network is disconnected and you use QEMU style networking, the guest
can still reach the host via 10.0.2.2.  All bets are off if you use
real-addr mode and don't have a real IP address.

Signed-off-by: Barret Rhoden <brho@cs.berkeley.edu>
1 file changed
tree: 2dd8e16d5c8d19655205f8a00432fc07a0d4b09e
  1. Documentation/
  2. kern/
  3. scripts/
  4. tests/
  5. tools/
  6. user/
  7. archkern/arch/
  8. includekern/include/
  9. .clang-format
  10. .gitignore
  11. config-default
  12. GETTING_STARTED.md
  13. Kconfig
  14. LICENSE
  15. LICENSE-gpl-2.0.txt
  16. LICENSE-inferno
  17. LICENSE-lgpl-2.1.txt
  18. LICENSE-plan9
  19. Makefile
  20. Makelocal.template
  21. README.md
README.md

About Akaros

Akaros is an open source, GPL-licensed operating system for manycore architectures. Its goal is to provide better support for parallel and high-performance applications in the datacenter. Unlike traditional OSs, which limit access to certain resources (such as cores), Akaros provides native support for application-directed resource management and 100% isolation from other jobs running on the system.

Although not yet integrated as such, it is designed to operate as a low-level node OS with a higher-level Cluster OS, such as Mesos, governing how resources are shared amongst applications running on each node. Its system call API and “Many Core Process” abstraction better match the requirements of a Cluster OS, eliminating many of the obstacles faced by other systems when trying to isolate simultaneously running processes. Moreover, Akaros’s resource provisioning interfaces allow for node-local decisions to be made that enforce the resource allocations set up by a Cluster OS. This can be used to simplify global allocation decisions, reduce network communication, and ultimately promote more efficient sharing of resources. There is limited support for such functionality on existing operating systems.

Akaros is still very young, but preliminary results show that processes running on Akaros have an order of magnitude less noise than on Linux, as well as fewer periodic signals, resulting in better CPU isolation. Additionally, its non-traditional threading model has been shown to outperform the Linux NPTL across a number of representative application workloads. This includes a 3.4x faster thread context switch time, competitive performance for the NAS parallel benchmark suite, and a 6% increase in throughput over nginx for a simple thread-based webserver we wrote. We are actively working on expanding Akaros's capabilities even further.

Visit us at akaros.org

Installation

Instructions on installation and getting started with Akaros can be found in GETTING_STARTED.md

Documentation

Our current documentation is very lacking, but it is slowly getting better over time. Most documentation is typically available in the Documentation/ directory. However, many of these documents are outdated, and some general cleanup is definitely in order.

Mailing Lists

Want to join the developers mailing list?

Send an email to akaros+subscribe@googlegroups.com.

Or visit our google group and click “Join Group”

Want to report a bug?

Create a new issue here.

Want to chat on IRC?

brho hangs out (usually alone) in #akaros on irc.freenode.net. The other devs may pop in every now and then.

Contributing

Instructions on contributing can be found in Documentation/Contributing.md.

License

The Akaros repository contains a mix of code from different projects across a few top-level directories. The kernel is in kern/, userspace libraries are in user/, and a variety of tools can be found in tools/, including the toolchain.

The Akaros kernel is licensed under the GNU General Public License, version 2. Our kernel is made up of code from a number of other systems. Anything written for the Akaros kernel is licensed “GPLv2 or later”. However, other code, such as from Linux and Plan 9, are licensed GPLv2, without the “or later” clause. There is also code from BSD, Xen, JOS, and Plan 9 derivatives. As a whole, the kernel is licensed GPLv2.

Note that the Plan 9 code that is a part of Akaros is also licensed under the Lucent Public License. The University of California, Berkeley, has been authorised by Alcatel-Lucent to release all Plan 9 software previously governed by the Lucent Public License, Version 1.02 under the GNU General Public License, Version 2. Akaros derives its Plan 9 code from this UCB release. For more information, see LICENSE-plan9 or here.

Our user code is likewise from a mix of sources. All code written for Akaros, such as user/parlib/, is licensed under the GNU LGPLv2.1, or later. Plan 9 libraries, including user/iplib and user/ndblib are licensed under the LGPLv2.1, but without the “or later”. See each library for details.

Likewise, tools/ is a collection of various code. All of our contributions to existing code bases, such as GCC, glibc, and busybox, are licensed under their respective projects' licenses.